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Graphene‐Based Antimicrobial Biomedical Surfaces
ChemPhysChem ( IF 2.3 ) Pub Date : 2020-11-27 , DOI: 10.1002/cphc.202000769 Santosh Pandit 1 , Karolina Gaska 2, 3 , Roland Kádár 2 , Ivan Mijakovic 1, 4
ChemPhysChem ( IF 2.3 ) Pub Date : 2020-11-27 , DOI: 10.1002/cphc.202000769 Santosh Pandit 1 , Karolina Gaska 2, 3 , Roland Kádár 2 , Ivan Mijakovic 1, 4
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Biomedical application of graphene derivatives have been intensively studied in last decade. With the exceptional structural, thermal, electrical, and mechanical properties, these materials have attracted immense attention of biomedical scientists to utilize graphene derivatives in biomedical devices to improve their performance or to achieve desired functions. Surfaces of graphene derivatives including graphite, graphene, graphene oxide and reduce graphene oxide have been demonstrated to pave an excellent platform for antimicrobial behavior, enhanced biocompatibility, tissue engineering, biosensors and drug delivery. This review focuses on the recent advancement in the research of biomedical devices with the coatings or highly structured polymer nanocomposite surfaces of graphene derivatives for antimicrobial activity and sterile surfaces comprising an entirely new class of antibacterial materials. Overall, we aim to highlight on the potential of these materials, current understanding and knowledge gap in the antimicrobial behavior and biocompatibility to be utilized of their coatings to prevent the cross infections.
中文翻译:
基于石墨烯的抗菌生物医学表面
近十年来,石墨烯衍生物的生物医学应用得到了深入研究。凭借优异的结构、热学、电学和机械性能,这些材料引起了生物医学科学家的极大关注,他们在生物医学设备中利用石墨烯衍生物来提高其性能或实现所需的功能。石墨烯衍生物(包括石墨、石墨烯、氧化石墨烯和还原氧化石墨烯)的表面已被证明可为抗菌行为、增强生物相容性、组织工程、生物传感器和药物输送奠定良好的平台。本综述重点关注生物医学设备研究的最新进展,该设备具有具有抗菌活性的石墨烯衍生物涂层或高度结构化聚合物纳米复合材料表面以及包含全新一类抗菌材料的无菌表面。总的来说,我们的目标是强调这些材料的潜力、目前在抗菌行为和生物相容性方面的理解和知识差距,以利用其涂层来防止交叉感染。
更新日期:2021-02-03
中文翻译:
基于石墨烯的抗菌生物医学表面
近十年来,石墨烯衍生物的生物医学应用得到了深入研究。凭借优异的结构、热学、电学和机械性能,这些材料引起了生物医学科学家的极大关注,他们在生物医学设备中利用石墨烯衍生物来提高其性能或实现所需的功能。石墨烯衍生物(包括石墨、石墨烯、氧化石墨烯和还原氧化石墨烯)的表面已被证明可为抗菌行为、增强生物相容性、组织工程、生物传感器和药物输送奠定良好的平台。本综述重点关注生物医学设备研究的最新进展,该设备具有具有抗菌活性的石墨烯衍生物涂层或高度结构化聚合物纳米复合材料表面以及包含全新一类抗菌材料的无菌表面。总的来说,我们的目标是强调这些材料的潜力、目前在抗菌行为和生物相容性方面的理解和知识差距,以利用其涂层来防止交叉感染。
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